Static Mixers Applications Working Principle Sizing your Static Mixer Overview Production

VERDERMI STATIC static mixers MIERS Static Mixers Applications Working Principle Sizing your Static Mixer Overview Production

Verdermix Static Mixers The Verdermix series Static Mixers is a well balanced program for almost all types of industry. With over 30 years of experience, Verdermix has a broad process knowledge for mixing fluids and gasses. Verdermix developed a standard modular system which can easily be adapted to preferred customer specifications. The customer can count on expertise, technical advice and excellent service. Verdermix only uses first class materials, components and accessories to ensure a long service life, even in severe applications. Why we use the HELICAL shaped mixing element Lowest pressure drop per mixing element The smallest chance of clogging Generating/combining 3 mixing principles Suitable for low and high viscosities Can handle the biggest solid particle per diameter Most hygienically element shape Customer benefits Low investment costs Low maintenance cost, no moving parts Low energy consumption Quick and intense reaction between the mixed liquids and/or gasses High level of mixing efficiency Low volume/hold up of the processed products Easy and simple installation, start up & operation No tanks or agitators are needed because of inline production process Small footprint Available in a wide range of metallic and plastic materials Prompt delivery time Low maintenance Reliable operation

Verdermix Applications Verdermix static mixers are used for mixing of Liquid Liquid Liquid (Wetted) Solids Liquid Gas Gas Liquid Gas Gas Main Applications Blending of different media (liquids & solids) Dilution of liquids Dispersing of liquids Creating or maintaining a suspension Temperature exchange Gas dispersing in liquid (contacting) Gas absorption in liquid Evaporation of liquid into gas Examples Water treatment applications Diluting polymers Mixing-in diluted polymers into (waste)water Creating homogeneous temperature ph control Handling media with high risk for clogging Examples (Petro) chemical applications Handling aggressive media Gas/liquid contacting or absorption Blending fuels & additives Examples Food processing applications Fruit particles into Yoghurt (without damaging) Homogenization & Cooling/heating sweet masses Mixing in colors & flavors Carbonization of beer with CO 2 Beer & syrup mixing

Principe de fonctionnement Working Principle The static mixer uses a small part of the pump energy that is readily available in your process line. Mixing is accomplished in three Click on the play button or scan the code with your smart phone to view the movie. ways: 1 Flow Division Each time a product stream passes over an element, it is split in half, separated, creating layers. The number of separations, =2 n (n= number of elements). This means that with 20 elements in line more than 1 million layers are created. 2 Flow Conversion The product is pushed over the elements, spiral walls, causing the product in the center to move radial to the outer diameter and the product on the outside to move vice versa. This leads to a difference in speed between the product molecules causing shearing of the product. 3 Flow Inversion The product direction of rotation changes with each element, receiving rapid inversion of inertial force, which agitates the product. For products with a Reynolds number <2300 (laminair flow) the main mixing mechanism is flow division. For products with a Reynolds number >4000 (turbulent flow) the main mixing mechanism is the combination of flow conversion and inversion. 1 Flow Division 2 & 3 Flow Conversion & Inversion

Sizing your Static mixer The next information and graphs are for quickly helping you to roughly size your static mixer. For a 100% correct selection we advise you to contact your local Verder company or Verdermix directly. Determine the Static Mixer Nominal Diameter capacity 100.000 flow (liters/hour) 10.000 1000 0 DN size DN15 DN20 DN25 DN32 DN40 DN50 DN65 DN80 DN100 DN125 DN150 2,5 m/sec 1.520 2.850 4.550 8.500 11.400 18.100 30.700 43.300 72.500 96.500 165.000 2,0 m/sec 1.230 2.000 3.500 6.000 9.000 14.500 24.000 33.000 57.500 77.000 130.000 1,5 m/sec 920 1.500 2.700 4.500 6.800 11.000 18.000 24.500 43.000 58.000 98.000 The mentioned liquid speeds are indicative. In fluid mechanics a liquid speed of 2,5m/sec is general advised as a maximum liquid speed. For the static mixer it is no problem to go over this limit.

Determine the amount of helical mixing elements needed for your process To do so, you first need to calculate the Reynolds number for your process. The Reynolds number is a dimensionless number and commonly used in fluid mechanics. It is also the most important factor for static mixer selection. Re = ρvdh = vdh = QDH µ v va where: D H is the hydraulic diameter of the pipe; L (m). Q is the volumetric flow rate (m 3 /s). A is the pipe cross-sectional area (m 2 ) v is the mean velocity of the fluid (Sl units: m/s). µ is the dynamic viscosity of the fluid (Pa.s of N.s/m 2 of kg/(m/s)) v is the kinetic viscosity (v = µ/ρ) (m 2 /s). ρ is the density of the fluid (kg/m 3 ). (for more detailed information see: http://en.wikipedia.org/wiki/reynolds_number ) 40 Number of mixing elements mixing elements 10 Homogeneity line C.o.v. <0,05 1 0,1 1 10 10 100 1000 10000 100000 1000000 2500000 5000000 Reynolds number Definition for Coefficient of Variation (C.o.V. or C.V.) The coefficient of variation (C.o.V.) is defined as the ratio of the standard deviation σ to the mean µ. Cv = σ µ which is the inverse of the signal-to-noise ratio. It shows the extent of variability in relation to mean of the population. Put simple: C.o.V. < 0.05 means a mixture better than 95% homogeneous. (For more detailed information see: http://en.wikipedia.org/wiki/coefficient_of_variation)

Overview Static Mixers Verdermix VMV Series The standard series of Verdermix static mixers. The mixing elements are fixed inside the tube. Verdermix VML Series Similar to the VMV series but with retractable mixing elements for easy cleaning or unclogging. Verdermix VMS Series Static mixer for the food & pharmaceutical industries. All wetted parts are electro polished. The mixing elements are retractable. Standard materials Carbon steel Stainless steel 304 Stainless steel 316 PVC PP PE PVDF Optional materials On request Standard connections DIN flanges ASA flanges Welding ends Screwed connectors Optional connections Milk couplings(din 11851) Flanges DIN11864 Others on request Other options Build on injection point(s) Heating/cooling jacket Plastic coating for chemical resistance

Verdermix Production Verdermix static mixers are engineered and build in The Netherlands with our production facility only 10 minutes from our main office in Vleuten/Utrecht. Verdermix BV is a member of the Verder Group liquids division. Any questions? You may still have questions and/or comments after reading this brochure. Please feel free to contact us on +32 (0) 51 51 92 80. You can also contact us via email: info@verdermix.com VERDERMI Packo Inox NV Branch Diksmuide Cardijnlaan 10 Industriepark Heernisse B-8600 Diksmuide Belgium TEL +32 (0) 51 51 92 80 FA +32 (0) 51 51 92 99 MAIL info@verdermix.com WEB www.verdermix.com